汽车弯道行驶经济性车速优化方法

Hui Jin; Feng Ding; Min Zhou

doi:10.15918/j.tbit1001-0645.2018.05.009

汽车弯道行驶经济性车速优化方法

Translated title of the contribution: Vehicle Optimal Speed Profile When Running on Curved Roads

Hui Jin, Feng Ding, Min Zhou

School of Mechanical Engineering

Beijing Institute of Technology

Research output: Contribution to journal › Article › peer-review

2 Citations (Scopus)

Abstract

To explore the influence of the factor of the horizontal curvature on fuel economy, a vehicle eco-speed optimization algorithm based on the information of road curvature was developed. Firstly, with the aid of the establishment of the BIT-TFCM instantaneous fuel consumption model and vehicle dynamics model, the steady-state optimal speeds corresponding to various circular curves with different radii were obtained. When entering or departing a curve, the optimal speed profile can be calculated with the dynamic programming algorithm. The fuel consumption can be reduced by 5.69%~15.91% with this algorithm compared with typical driving model using the co-simulation of Matlab/Simulink and CarSim. This technique can obviously improve the vehicle fuel economy when running on curved roads, and can provide decision-making for speed control of unmanned vehicles.

Translated title of the contribution	Vehicle Optimal Speed Profile When Running on Curved Roads
Original language	Chinese (Traditional)
Pages (from-to)	493-498
Number of pages	6
Journal	Beijing Ligong Daxue Xuebao/Transaction of Beijing Institute of Technology
Volume	38
Issue number	5
DOIs	https://doi.org/10.15918/j.tbit1001-0645.2018.05.009
Publication status	Published - 1 May 2018

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title = "汽车弯道行驶经济性车速优化方法",

abstract = "To explore the influence of the factor of the horizontal curvature on fuel economy, a vehicle eco-speed optimization algorithm based on the information of road curvature was developed. Firstly, with the aid of the establishment of the BIT-TFCM instantaneous fuel consumption model and vehicle dynamics model, the steady-state optimal speeds corresponding to various circular curves with different radii were obtained. When entering or departing a curve, the optimal speed profile can be calculated with the dynamic programming algorithm. The fuel consumption can be reduced by 5.69%~15.91% with this algorithm compared with typical driving model using the co-simulation of Matlab/Simulink and CarSim. This technique can obviously improve the vehicle fuel economy when running on curved roads, and can provide decision-making for speed control of unmanned vehicles.",

keywords = "Curved roads, Dynamic programming, Eco-driving, Fuel consumption model",

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AU - Jin, Hui

AU - Ding, Feng

AU - Zhou, Min

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N2 - To explore the influence of the factor of the horizontal curvature on fuel economy, a vehicle eco-speed optimization algorithm based on the information of road curvature was developed. Firstly, with the aid of the establishment of the BIT-TFCM instantaneous fuel consumption model and vehicle dynamics model, the steady-state optimal speeds corresponding to various circular curves with different radii were obtained. When entering or departing a curve, the optimal speed profile can be calculated with the dynamic programming algorithm. The fuel consumption can be reduced by 5.69%~15.91% with this algorithm compared with typical driving model using the co-simulation of Matlab/Simulink and CarSim. This technique can obviously improve the vehicle fuel economy when running on curved roads, and can provide decision-making for speed control of unmanned vehicles.

AB - To explore the influence of the factor of the horizontal curvature on fuel economy, a vehicle eco-speed optimization algorithm based on the information of road curvature was developed. Firstly, with the aid of the establishment of the BIT-TFCM instantaneous fuel consumption model and vehicle dynamics model, the steady-state optimal speeds corresponding to various circular curves with different radii were obtained. When entering or departing a curve, the optimal speed profile can be calculated with the dynamic programming algorithm. The fuel consumption can be reduced by 5.69%~15.91% with this algorithm compared with typical driving model using the co-simulation of Matlab/Simulink and CarSim. This technique can obviously improve the vehicle fuel economy when running on curved roads, and can provide decision-making for speed control of unmanned vehicles.

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KW - Dynamic programming

KW - Eco-driving

KW - Fuel consumption model

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汽车弯道行驶经济性车速优化方法

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